CN211928715U - Electric shock prevention alarm based on fishpond high-voltage line - Google Patents

Abstract

The utility model discloses an electric shock prevention alarm based on a fishpond high-voltage wire, which comprises a detection device, wherein the detection device comprises an infrared induction sensor and an inductor probe; the infrared induction sensor comprises an induction component and a data processing component, and the induction component is horizontally connected with the data processing component; the sensor probe comprises A, B, C three surfaces, which form a hollow sensor probe in a triangular pyramid shape; A. b, C through holes are respectively arranged at the central positions of three sides; the data processing components of the infrared induction sensor are positioned in the sensor probe and are perpendicular to A, B, C three surfaces of the sensor probe, and two adjacent data processing components are directly or indirectly connected and used for balancing the weight of the data processing components; the sensing component of the infrared sensing sensor penetrates through the through hole and is used for conducting 360-degree all-dimensional sensing to the surrounding range, 360-degree all-dimensional sensing in a certain range around the device can be achieved, dead corners can be effectively prevented, and working efficiency is improved.

Description

Electric shock prevention alarm based on fishpond high-voltage line

Technical Field

The utility model relates to an electric power protection technical field, concretely relates to protection against electric shock alarm based on pond high-voltage line.

Background

When setting up high-tension line, inevitably through waters such as lake, pond, the environment constitutes complicacy under the high-tension line, there is the road bridge, the river, pond etc. the waters that nature formed under the line often has the people to open the net fishing, activities such as throwing the pole fishing, cause very big hidden danger for circuit safety and self safety, need set up warning device such as warning sign or warning stake under this condition, be used for reminding people can not fish or other activities under the high-tension line, especially to the action of fishing, very easily because the fishing pole inadvertently touches the high-tension line and causes the casualties accident of electric shock.

The existing warning device is generally buried at the side of a fishpond ridge or arranged in a fishpond, a detection device is arranged on the warning device, and the detection device is used for detecting pedestrians, so that warning work is further reminded;

but current detection device generally adopts radar scanner to survey the pedestrian, and radar scanner can have the dead angle phenomenon to appear when surveying, and when the pedestrian was more, the radar scanner can't scan simultaneously to the pedestrian in each position, can have the problem of inefficiency simultaneously.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model aims to provide an electric shock protection alarm based on pond high-voltage line, it aims at solving the technical problem that 360 degrees all-round perceptions and inefficiency can't be realized among the prior art.

The utility model discloses a following technical scheme realizes:

an electric shock prevention alarm based on a fishpond high-voltage wire comprises a detection device, wherein the detection device comprises an infrared induction sensor and an inductor probe;

the infrared induction sensor comprises an induction component and a data processing component, and the induction component is horizontally connected with the data processing component;

the sensor probe comprises a surface A, a surface B and a surface C, wherein the surface A, the surface B and the surface C form a hollow sensor probe in a triangular pyramid shape; the center positions of the surface A, the surface B and the surface C are respectively provided with a through hole;

the data processing components of the infrared induction sensor are positioned in the sensor probe and are respectively and vertically arranged on the surface A, the surface B and the surface C of the sensor probe, and the two adjacent data processing components are directly or indirectly connected and used for balancing the weight of the data processing components;

and the sensing component of the infrared sensing sensor penetrates through the through hole and is used for sensing the surrounding range in a 360-degree all-round mode.

This scheme has adopted to set up the cavity inductor probe that is the triangular pyramid form, adopts such shape setting, and material saving that can furthest practices thrift the cost, reduces the construction consumption.

This scheme still adopts and to set up infrared induction sensor in the cavity inductor probe that is the triangular cone form, just infrared induction sensor's data processing component sets up perpendicularly respectively on the A face, B face and the C face of inductor probe, two adjacent data processing components are direct or indirect to be connected, adopt this kind of indirect or direct connected mode, can play the supporting role to data processing component, can effectually avoid when data processing component weight is great, because the gravity of self to cause droing of data processing component.

This scheme still adopts to set the inductor probe to be the triangular cone form, just infrared induction sensor's data processing component sets up perpendicularly respectively on the A face, B face and the C face of inductor probe, adopt such mode of setting, can realize the all-round perception of 360 degrees in the certain limit around the device, can effectively stop the appearance of dead angle phenomenon, can improve work efficiency.

Furthermore, the electric shock prevention alarm also comprises an equipment rod, a hollow connecting rod, a power supply device, an electric control device and an alarm device;

one end of the hollow connecting rod is connected with the detection device, the other end of the hollow connecting rod is connected with the equipment rod, and the hollow connecting rod is positioned at the middle upper part of the equipment rod;

the top end of the alarm device is flush with the top end of the hollow connecting rod, and the alarm device is arranged on the equipment rod; the power supply device is positioned at the top of the equipment pole; the electric control device is positioned in the middle of the equipment rod and is electrically connected with the power supply device, the detection device and the alarm device.

This scheme adoption will alarm device with detection device sets up on same horizontal plane, can effectual reduction detection device's signal transmission time, can be faster, the current result of surveying of sensitive feedback.

According to the scheme, the detection device and the alarm device are arranged on the middle upper part of the equipment rod, so that the detection device and the alarm device can be effectively prevented from being damaged by pedestrians, and the service lives of the detection device and the alarm device can be prolonged; meanwhile, the electric control device is arranged in the middle of the equipment rod, so that workers can conveniently overhaul the electric control device, the working efficiency of the workers is improved, and meanwhile, the damage of pedestrians to the electric control device is also avoided.

Further, the alarm device comprises a loudspeaker and a warning lamp.

Furthermore, the loudspeaker and the warning lamp are both made of waterproof materials.

Further, the power supply device comprises a controller, a solar cell and a storage battery, wherein the controller is used for controlling and stably outputting the direct-current power supply provided by the two power supply modes.

Further, the direct current power supply adopts 12V.

Further, the equipment rod is arranged in a hollow mode.

Further, the height of the equipment pole is 3.5 meters; the distance from the detection device to the bottom of the equipment pole is 3.3 meters; the distance from the electric control device to the bottom of the equipment pole is 2 meters.

This scheme adopts on integrated to the equipment pole with all devices, and the equipment pole adopts cavity setting, can all set up the interconnecting link of all devices inside the equipment pole, can improve the workman at the installation rate, also improves the subsequent maintenance efficiency of alarm simultaneously.

The connection and the control of controller, battery, solar cell panel all belong to prior art, and do not the utility model discloses an improvement point, no longer give unnecessary details admittedly.

Compared with the prior art, the utility model, following advantage and beneficial effect have:

1. this scheme has adopted to set up the cavity inductor probe that is the triangular pyramid form, adopts such shape setting, and material saving that can furthest practices thrift the cost, reduces the construction consumption.

2. This scheme still adopts and to set up infrared induction sensor in the cavity inductor probe that is the triangular cone form, just infrared induction sensor's data processing component sets up perpendicularly respectively on the A face, B face and the C face of inductor probe, two adjacent data processing components are direct or indirect to be connected, adopt this kind of indirect or direct connected mode, can play the supporting role to data processing component, can effectually avoid when data processing component weight is great, because the gravity of self to cause droing of data processing component.

3. This scheme still adopts to set the inductor probe to be the triangular cone form, just infrared induction sensor's data processing component sets up perpendicularly respectively on the A face, B face and the C face of inductor probe, adopt such mode of setting, can realize the all-round perception of 360 degrees in the certain limit around the device, can effectively stop the appearance of dead angle phenomenon, can improve work efficiency.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the sensor probe of the present invention.

Fig. 3 is a schematic structural diagram of the prediction device of the present invention.

Reference numbers and corresponding part names:

1-a device pole; 2-hollow connecting rod; 3-a detection device; 31-data processing means; 32-sensor probe; 321-a through hole; 4-a solar cell; 5-an electric control device; 6-alarm device.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the following examples and drawings, and the exemplary embodiments and descriptions thereof of the present invention are only used for explaining the present invention, and are not intended as limitations of the present invention.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. However, it will be apparent to one of ordinary skill in the art that: it is not necessary to employ these specific details to practice the invention. In other instances, well-known structures, circuits, materials, or methods have not been described in detail so as not to obscure the present invention.

Throughout the specification, reference to "one embodiment," "an embodiment," "one example," or "an example" means: the particular features, structures, or characteristics described in connection with the embodiment or example are included in at least one embodiment of the present invention. Thus, the appearances of the phrases "one embodiment," "an embodiment," "one example" or "an example" in various places throughout this specification are not necessarily all referring to the same embodiment or example. Furthermore, the particular features, structures, or characteristics may be combined in any suitable combination and/or sub-combination in one or more embodiments or examples. Further, those of ordinary skill in the art will appreciate that the illustrations provided herein are for illustrative purposes and are not necessarily drawn to scale. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

[ examples ] A method for producing a compound

An electric shock prevention alarm based on a fishpond high-voltage wire comprises a detection device 3, wherein the detection device 3 comprises an infrared induction sensor and an inductor probe 32; the infrared induction sensor comprises an induction component and a data processing component 31, wherein the induction component is horizontally connected with the data processing component 31; the sensor probe 32 comprises a surface A, a surface B and a surface C, wherein the surface A, the surface B and the surface C form a hollow sensor probe 32 in a triangular pyramid shape; the center positions of the surface A, the surface B and the surface C are respectively provided with a through hole 321; the data processing components 31 of the infrared induction sensor are positioned in the sensor probe 32 and are respectively and vertically arranged on the surface A, the surface B and the surface C of the sensor probe 32, and two adjacent data processing components 31 are directly or indirectly connected and used for balancing the weight of the data processing components 31; the sensing member of the infrared sensor passes through the through hole 321 for sensing the surrounding range in an all-around manner at 360 degrees.

This scheme adopts to have set up the cavity inductor probe 32 that is the triangular pyramid form, adopts such shape setting, and material saving that can furthest practices thrift the cost, reduces the construction consumption.

This scheme still adopts and sets up infrared induction sensor in the cavity inductor probe 32 that is the triangular pyramid form, and infrared induction sensor's data processing component 31 sets up perpendicularly respectively at the A face of inductor probe, on B face and the C face, the data processing component 31 of two adjacent is direct or indirect to be connected, adopt this kind of indirect or direct connected mode, can play the supporting role to data processing component 31, can effectually avoid when data processing component 31 weight is great, because the gravity of self, thereby cause droing of data processing component 31.

This scheme still adopts to set to be the triangular pyramid form with inductor probe 32, and infrared induction sensor's data processing component 31 sets up perpendicularly respectively on inductor probe's A face, B face and C face, adopts such mode of setting, can realize the all-round perception of 360 degrees in the certain limit around the device, can effectively stop the appearance of dead angle phenomenon, can improve work efficiency.

Furthermore, the electric shock prevention alarm also comprises an equipment rod 1, a hollow connecting rod 2, a power supply device, an electric control device 5 and an alarm device 6; one end of the hollow connecting rod 2 is connected with the detection device 3, the other end of the hollow connecting rod is connected with the equipment rod 1, and the hollow connecting rod 2 is positioned at the middle upper part of the equipment rod 1; the top end of the alarm device 6 is flush with the top end of the hollow connecting rod 2, and the alarm device 6 is arranged on the equipment rod 1; the power supply device is positioned at the top of the equipment pole 1; the electric control device 5 is positioned in the middle of the equipment rod 1, and the electric control device 5 is electrically connected with the power supply device, the detection device 3 and the alarm device 6.

This scheme adopts and sets up alarm device 6 and detection device 3 on same horizontal plane, can effectual reduction detection device 3's signal transmission time, the current result of surveying of feedback that can be more quick, sensitive.

According to the scheme, the detection device 3 and the alarm device 6 are arranged on the middle upper part of the equipment rod 1, so that the detection device 3 and the alarm device 6 can be effectively prevented from being damaged by pedestrians, and the service lives of the detection device 3 and the alarm device 6 can be prolonged; meanwhile, the electric control device 5 is arranged in the middle of the equipment rod 1, so that workers can conveniently overhaul the electric control device 5, the working efficiency of the workers is improved, and meanwhile, the damage of the pedestrians to the electric control device 5 is also avoided.

Further, the alarm device 6 comprises a loudspeaker and a warning lamp, the loudspeaker and the warning lamp are made of waterproof materials, the power supply device comprises a controller, a solar cell 4 and a storage battery, the controller is used for controlling and stably outputting direct current power supplies provided by two power supply modes, the direct current power supplies are 12V, the equipment pole is arranged in a hollow mode, and the height of the equipment pole is 3.5 m; the distance from the detection device to the bottom of the equipment pole is 3.3 meters; the distance from the electric control device to the bottom of the equipment pole is 2 meters.

This scheme adopts on integrated to equipment pole 1 with all devices, and equipment pole 1 adopts cavity setting, can all set up the interconnecting link of all devices inside equipment pole 1, can improve the workman at the installation rate, also improves the subsequent maintenance efficiency of alarm simultaneously.

The utility model discloses in the use, install the precaution device near involving in electricity pond, whether the infrared induction sensor perception high tension line of detecting device 3 exists someone near, if someone's circumstances, will start alarm device 6, broadcast through alarm device 6's speaker and report an emergency and ask for help or increased vigilance the warning, the warning light carries out the scintillation and reports to the police pedestrian here has electric power high tension line more effectively, prevents strictly that the electric shock risk; after detecting device 3 perception personnel left, will close speaker and the warning light of reporting, can effectually avoid noise pollution and light pollution.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (8)

1. An electric shock prevention alarm based on a fishpond high-voltage wire is characterized by comprising a detection device (3), wherein the detection device (3) comprises an infrared induction sensor and an inductor probe (32);

the infrared induction sensor comprises an induction component and a data processing component (31), and the induction component is horizontally connected with the data processing component (31);

the sensor probe (32) comprises a surface A, a surface B and a surface C, wherein the surface A, the surface B and the surface C form a hollow sensor probe (32) in a triangular pyramid shape; the center positions of the surface A, the surface B and the surface C are respectively provided with a through hole (321);

the data processing components (31) of the infrared induction sensor are positioned in the sensor probe (32) and are respectively and vertically arranged on the surface A, the surface B and the surface C of the sensor probe, and two adjacent data processing components (31) are directly or indirectly connected and used for balancing the weight of the data processing components (31);

the sensing component of the infrared sensing sensor penetrates through the through hole (321) and is used for sensing the surrounding range in a 360-degree all-around mode.

2. The electrical shock prevention alarm based on the fishpond high-voltage wire is characterized by further comprising an equipment rod (1), a hollow connecting rod (2), a power supply device, an electric control device (5) and an alarm device (6);

one end of the hollow connecting rod (2) is connected with the detection device (3), the other end of the hollow connecting rod is connected with the equipment rod (1), and the hollow connecting rod (2) is positioned at the middle upper part of the equipment rod (1);

the top end of the alarm device (6) is flush with the top end of the hollow connecting rod (2), and the alarm device (6) is arranged on the equipment rod (1); the power supply device is positioned at the top of the equipment pole (1); the electric control device (5) is located in the middle of the equipment rod (1), and the electric control device (5) is electrically connected with the power supply device, the detection device (3) and the alarm device (6).

3. The electrical shock protection alarm based on the high voltage wire of the fish pond is characterized in that the alarm device (6) comprises a loudspeaker and a warning lamp.

4. The fishpond high-voltage wire-based electric shock protection alarm device as claimed in claim 3, wherein the speaker and the warning lamp are made of waterproof materials.

5. The electrical shock protection alarm based on the fishpond high-voltage wire is characterized in that the power supply device comprises a controller, a solar cell (4) and a storage battery, and the controller is used for controlling and stably outputting direct-current power supplied by two power supply modes.

6. The electrical shock protection alarm based on the fishpond high-voltage wire is characterized in that 12V is adopted by the direct-current power supply.

7. The electrical shock protection alarm based on the fishpond high-voltage wire is characterized in that the equipment rod (1) is arranged in a hollow mode.

8. The electrical shock protection alarm based on the fishpond high-voltage wire is characterized in that the height of the equipment rod (1) is 3.5 meters; the distance from the detection device (3) to the bottom of the equipment rod (1) is 3.3 meters; the distance from the electric control device (5) to the bottom of the equipment rod (1) is 2 meters.

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